DE20316059U1 - Grommet - Google Patents

Abstract

Strain relief cable entry with
- an electrical cable (1),
- a passage socket (9) with a passage (9a) for the cable (1),
characterized in that the passage (9a) has an internal thread (8) and the cable (1) has an external diameter (5) such that the threads (7) of the internal thread (8) in the state screwed into the internal thread (8) of the cable (1) press into the outer circumference of its insulation (3).

Description

I. Field of application

The invention relates to a strain-relieved implementation of a electrical cable through a solid component, such as a Housing part, in particular a housing cover.

II. Technical background ^`

Because the electrical contact the wires of a cable with the component to be connected, for example an electronic circuit board, usually do not absorb any major mechanical forces can, a so-called. Strain relief necessary. This is to avoid that at If the cable is tightened too much, the electrical connection between the cable and the rest of the electrical device.

For this purpose the cable is mostly at the point of passage through the housing part mechanically and firmly connected to this, for example by means of a tightenable clamping rail jammed on a surface such as the housing part. such Need strain relief additional space and in the case described, tightening at least two screws while assembly.

Another common strain relief is passing one Cable through the port of a port socket on your Outer circumference Has external thread. One before passing through of the cable threaded onto the cable with internal thread, which fits on the external thread and also a passage for that Owns the cable, can be carried out after of the cable can be screwed onto the outlet socket. Thereby the free internal cross section is compressed due to a conical design either of this inner diameter and / or of the thread.

However, making one such through bushing due to the taper, and it becomes a additional Component in the form of the union nut needed and when assembling, the previous threading of the union nut on the cable not to be forgotten, otherwise there will be extra work.

III. Presentation of the invention

a) Technical task

It is therefore the object according to the invention to create a strain relief that is easy and inexpensive to manufacture and to be assembled.

b) solving the problem

This task is due to the characteristics of claim 1 solved. Advantageous embodiments result itself from the subclaims.

If the outer diameter of the cable in unloaded state is greater than the free passage of the passage internal thread, press the threads of the internal thread in the outer circumference the insulation, i.e. the outer circumference of the Cable, as soon as the cable is in the axial length range of the thread.

In this way, one axially fixed connection between cable and bushing and thus strain relief is required.

For this, on the one hand be sure that the insulation of the cable is thick enough so that is in the outer circumference press-in threads cannot reach and damage the wires inside the insulation.

On the other hand, the outside diameter the cable shouldn't be that big that its insertion into the axial area of the internal thread is one too big Force required, for example, by the outer diameter the cable in the unloaded state is significantly larger than the nominal diameter of the thread, i.e. the diameter measured between the recesses the threads.

The cable can be in the axial length range of the internal thread are introduced by axially pushing forward, which, however, requires relatively great effort requires.

A less fast, but more reliable The method of insertion is to screw on the outlet bushing with the Internal thread of the passage on the outer diameter of the cable, so its isolation.

Especially if the threads are sufficient are pointed that they are in the plastic of the insulation cut the cable, a particularly axially fixed connection between the two parts.

The tensile strength of this connection depends on the type of insulation, usually a plastic, and its absolute tensile strength of the insulation preload in the radial direction. Preferably is therefore the outside diameter the cable in the initial state is slightly larger than the nominal diameter of the internal thread.

So that the first in the screwing direction Thread of the internal thread the insulation of the cable nevertheless without huge There are several options available above:

Either the passage, including the internal thread, that is also the nominal diameter of the internal thread, is conically narrowing in the screwing-in direction of the cable. In this case, the outer diameter of the cable is smaller than the nominal diameter in the initial state of the thread at the wide end, but larger than the nominal diameter at the narrow end.

Another solution is the nominal diameter of the thread unchanged to leave, but on the first threads in the screwing direction the height the threads train less and in the course of the first threads the full thread height bring to.

Both options are expensive because them with the standardized, inexpensive manufacturing processes for threads are difficult to reconcile.

A third possibility is that Internal thread and also the passage in the area of the internal thread not conical, but in the direction of insertion of the cable in front of the internal thread is a feed pipe in the form of an extension the passage coaxial to the internal thread, and the Inner diameter of this feed connector to be conical with a narrowing towards the internal thread.

The free diameter of the feed connector corresponds then preferably approximately at the end facing the internal thread the nominal diameter of the internal thread.

If it is the electrical Cable around a cable with shielding, i.e. a mesh of metal threads in the Insulation coaxial between the outer circumference of the cable and the Veins inside the cable that is going to be inserted before the passage of the passage bushing for an axial end region of the Cable whose insulation is removed, so that the wires of the cable this length over the Project removed insulation axially. The shielding not removed together with the insulation, but left for a long time, so according to the cut the wires are cut and before insertion, i.e. screwing in or Insert the insulation of the cable into the internal thread of the passage towards the back on the outside diameter the insulation everted becomes.

If only then the cable in so far the passage is inserted that the insulation of the cable hardly or just a little bit about protrudes the axial area of the internal thread, and the shield at least with a supernatant over the Insulation turned inside out according to the axial length of the internal thread, are the threads or the braid of the shield between the outer circumference of the insulation of the Cable and the internal thread of the passage and thus in an electrically conductive Contact with the internal thread.

If the outlet bushing is made of electrically conductive material, metal, the shielding becomes electrical Contact with the passage socket and thus with the housing of the to be connected electrical device brought.

It will be a reliable density EMC shielding of the cable guaranteed and on the other hand it has a positive influence on the strain relief, since the axial Direction along the internal thread of metallic fibers the shield also increase the tensile strength of the connections.

In addition, the tensile strength of the cable can be improved, especially if there is a shield owns the shielding on the front of the insulation protrudes and is not cut off, and at least the shield, better also the insulation of the cable in the case with is poured into which the cable enters. Through the many individual wires or fibers of the shield, which are usually also braid-like or fabric-like are arranged, there is a very strong positive and thus highly resilient connection of the hardened casting compound with the shield, and therefore an additional one improved tensile strength.

c) working examples

An embodiment according to the invention is described in more detail below with reference to the figures. Show it:

1 : a cross section through a first strain relief according to the invention, in which the cable is already in the passage socket only in the right part of the figure,

2 : a second embodiment and

3 : a third embodiment.

1 shows the cable outlet in the left half of the picture before production; in the right half of the picture in the finished state, i.e. after the cable 1 himself with his insulation 3 in the axial length range of the internal thread 7 located in a longitudinal section.

Here is the outlet bushing 9 with the internal thread 8th , which generally has a rotationally symmetrical, round cross-section, the passage bushing 9 integral part of a lid 15 can be the z. B. on a profile 12 or a housing is attached.

The passage bushing 9 extends from the main plane of the lid 15 out in one direction, while in the other direction, for example, guide processes 11 strive for a precisely fitting cover 15 on the adjacent component to facilitate the screwing 13 through the lid against the profile 12 to allow, preferably with the interposition of a z. B. Flat seal 16 ,

Inside the profile 12 should the veins 2 coming from the insulation 3 of the cable 1 that are in the longitudinal direction 10 over its insulation removed in the end area 3 project sufficiently with an electrical unit inside the z. B. Profiles 12 get connected.

How 1 shows the outside diameter 5 of the cable 1 in the initial state about as large as the nominal diameter N of the internal thread 8th , The electric wire 1 can therefore with its insulation 3 from the outside into the internal thread 8th the passage bushing 9 be screwed in. After the first threads turn into the outer diameter of the insulation 3 have already dug in, a form fit between the two parts, which increases with further screwing in, is only possible with a very great effort to pull back or push forward, so that the most energy-saving direction of insertion is screwing in, preferably until the front end of the insulation is the internal thread 8th has just gone through completely.

Unless the cable 1 an electromagnetic shield 4 in the form of a metal wire mesh near the outer circumference within the insulation 3 and therefore concentric around the veins 2 have around, and in particular this shielding of the cable should also be maintained, so the shielding 4 along with the veins 2 cut to length, and is thus from the shorter cut insulation 3 in front.

Before inserting the cable 1 into the internal thread 7 will this shield 4 - as shown in the right half of the picture - folded back and thus on the outer diameter of the cable 1 stored, and gets screwed or inserted between the internal thread 8th and the insulation 3 , If the internal thread 8th consists of electrically conductive material, in particular metal, and preferably the entire cover 15 , this way the cable 1 EMC-tight on the lid 15 and thus leave the housing of the electrical device on.

For the described strain-relieved cable bushing, there is also a bushing 9 No additional component is required, not even an additional fastening screw for the cable fastening, and assembly is just as quick as tightening a single fastening screw.

1 furthermore shows in the right half of the image a caterpillar, preferably present over the entire circumference, made of a hardened adhesive or a hardened sealing compound 14 , in the corner area between the free end face of the insulation 3 of the cable and the inner circumference of the outlet socket 9 , This is the cable 1 only so far through the internal thread 8th stuck forward or screwed forward that the inside diameter of the passage bushing 9 still close to the outside diameter 5 of the cable 1 zoom ranges. The adhesive / potting compound 14 ' can also extend over the entire face of the cable 1 up to the outlet bushing 9 extend there.

This bond serves to improve the tensile strength of the cable 1 , which is not only due to the positive engagement of the threads of the internal thread 8th in the insulation 3 of the cable, but also due to the gluing between the bushing 9 and insulation 3 , and also the shield 4 , provided that this is also by this potting 14 passes through and is glued or cast by it.

2 differs from 1 in that the culvert 9a including the internal thread 8th is conical, i.e. in the screwing-in direction of the cable 1 has a tapered cross-section, causing the cable to be screwed in 1 This is made easier by the simple and reliable screwing of the first threads onto the outside diameter at the beginning of the cable.

This is particularly facilitated by the outside diameter 5 of the cable 1 is larger than the free passage at the second, free end of the passage, but larger than the free passage, in particular also larger than the inside diameter N , at the inner, narrow end of the passage.

2 also differs from 1 also in that a potting 14 ' is not only applied as a single bead of adhesive, but the housing 12 on which the lid 15 with the passage bushing 9 is essentially completely filled out. To do this after putting the lid on 15 to be able to accomplish are in the lid 15 , preferably on opposite sides with respect to the passage bushing 9 at least two openings 17 available, of which after putting on the lid 15 the one for filling the potting compound 14 ' serves and the other for the escape of the air displaced thereby inside the housing.

The tensile strength of the cable 1 In this case, the cable will continue to improve 1 so far into the passage bushing 9 screwed in and through this that the cable 1 with its insulation 3 and thus also with the shield that emerges from it at the end face and is folded back 4 protrudes into the potting area and is potted. Above all, the casting of the mostly woven or braided shield 4 results in a strong, positive and non-positive connection of the cable 1 with the potting compound 14 ' and thus the housing or profile is firmly connected.

at 3 is the internal thread 7 designed over the entire length with a uniform diameter, as in the solution according to 1 , however, is in the direction of insertion of the cable 1 the internal thread 7 a feed pipe 6 , in particular in one piece together with the passage bushing 9 trained, upstream.

The inside diameter of the feed port 6 is conically narrowing to the internal thread 8th trained, the outer diameter 4 of the cable is smaller than the inside diameter of the feed connector 6 at its free, open end, but larger than at least the free passage of the internal thread 8th , preferably also larger than the inner diameter N of the internal thread 8th ,

1

Kabel

2a, b

Adern

3

Isolierung

4

Abschirmung

5

Außendurchmesser

6

Zuführstutzen

7

Gewindegang

8

Innengewinde

9

Durchlassbuchse

9a

Durchlass

10

Längsrichtung

11

Führungsfortsatz

12

Profil

13

Verschraubung

14

Verguss

15

Deckel

16

Dichtung

N

Nenndurchmesser

LIST OF REFERENCE NUMBERS

1

electric wire

2a, b

veins

3

insulation

4

shielding

5

outer diameter

6

supply pipe

7

thread

8th

inner thread

9

Passage socket

9a

passage

10

longitudinal direction

11

Guide extension

12

profile

13

screw

14

grouting

15

cover

16

poetry

N

Nominal diameter

Claims (13)

Strain relief cable entry with - an electrical cable ( 1 ), - a passage bushing ( 9 ) with an opening ( 9a ) for the cable ( 1 ), characterized in that the passage ( 9a ) an internal thread ( 8th ) and the cable ( 1 ) such an outside diameter ( 5 ) has that the threads ( 7 ) of the internal thread ( 8th ) in the inside thread ( 8th ) screwed-in condition of the cable ( 1 ) form-fitting in the outer circumference of its insulation ( 3 ) press in. Strain-relieved cable bushing according to claim 1, characterized in that the outer diameter ( 5 ) of the cable ( 1 ) is larger than the internal thread diameter in the initial state ( N ) measured between the recesses between the threads ( 7 ). Strain-relieved cable bushing according to one of the preceding claims, characterized in that from the screw-in side of the internal thread ( 8th ) a feed pipe ( 6 ) is arranged, with a to the internal thread ( 8th ) decreasing, in particular conical, inner diameter, and the inner diameter is larger at the larger free end and smaller at the inner, narrow end than the outer diameter ( 5 ) of the cable ( 1 ) in the initial state. Strain-relieved cable bushing according to one of the preceding claims, characterized in that the inner diameter of the feed connector ( 6 ) at the inner, narrower end the diameter of the internal thread ( 8th ) between the threads ( 7 ) corresponds. Strain-relieved cable bushing according to one of the preceding claims, characterized in that the cable ( 1 ) a metallic shield ( 4 ) between the veins ( 2 ) and the outside diameter ( 5 ) and the shield ( 4 ) bent backwards over the free end of the cable on the outside diameter of the cable ( 1 ) and thus between the internal thread ( 8th ) of the passage bushing ( 9 ) and the insulation ( 3 ) of the cable ( 1 ). Strain-relieved cable duct according to one of the preceding claims, characterized in that the shield bent backwards ( 4 ) an axial extension at least corresponding to the axial length of the internal thread ( 8th ) having. Strain-relieved cable bushing according to one of the preceding claims, characterized in that the insulation ( 3 ) of the cable ( 1 ) is thicker than the height of the threads ( 7 ). Strain-relieved cable bushing according to one of the preceding claims, characterized in that the outer diameter of the cable ( 1 ) is no more than 20%, in particular not more than 10%, in particular not more than 5% larger than the nominal diameter in the unloaded state ( N ) of the internal thread ( 8th ). Strain-relieved cable bushing according to one of the preceding claims, characterized in that the passage socket ( 9 ) is a sheet metal part, in particular manufactured as a stamped part, and the internal thread ( 8th ) is manufactured as a threaded nozzle. Strain-relieved cable bushing according to one of the preceding claims, characterized in that the internal thread ( 8th ), especially the entire outlet bushing ( 9 ), made of electrically conductive material, in particular metal. Strain-relieved cable bushing according to one of the preceding claims, characterized in that an adhesive or a potting compound ( 14 ), in particular as a ring-shaped application, is arranged so that it covers both the end face of the insulation ( 13 ) of the cable ( 1 ) and the inner circumference of the passage ( 9a ) is glued. Strain-relieved cable bushing according to one of the preceding claims, characterized in that the adhesive or the potting ( 14 ) also the shield ( 4 ) of the cable ( 1 ) at least partially, especially in the area between the exit of the shield ( 4 ) from the Face of the insulation ( 3 ) and the entry of the shield ( 4 ) into the internal thread ( 8th ). Strain-relieved cable bushing according to one of the preceding claims, characterized in that the cable ( 1 ) so far into the internal thread ( 8th ) of the passage bushing ( 9 ) is screwed in that it protrudes axially on the inside and protrudes into the adjacent housing and at least with its shield ( 4 ), especially with the insulation ( 3 ) of the cable ( 1 ) from a potting in the housing ( 14 ' ) is enclosed.